Hydrogenated vanadium oxides as an advanced anode material in lithium ion batteries

Yufei Zhang; Huanwen Wang; Jun Yang; Haosen Fan; Yu Zhang; Zhengfei Dai; Yun Zheng; Wei Huang; Xiaochen Dong; Qingyu Yan

doi:10.1007/s12274-017-1582-7

Hydrogenated vanadium oxides as an advanced anode material in lithium ion batteries

Yufei Zhang, Huanwen Wang, Jun Yang, Haosen Fan, Yu Zhang, Zhengfei Dai, Yun Zheng, Wei Huang, Xiaochen Dong, Qingyu Yan

柔性电子（未来科技）学院|先进材料研究院

科研成果: 期刊稿件 › 文章 › 同行评审

13 引用（Scopus）

摘要

Current research on vanadium oxides in lithium ion batteries (LIBs) considers them as cathode materials, whereas they are rarely studied for use as anodes in LIBs because of their low electrical conductivity and rapid capacity fading. In this work, hydrogenated vanadium oxide nanoneedles were prepared and incorporated into freeze-dried graphene foam. The hydrogenated vanadium oxides show greatly improved charge-transfer kinetics, which lead to excellent electrochemical properties. When tested as anode materials (0.005–3.0 V vs. Li/Li⁺) in LIBs, the sample activated at 600 °C exhibits high specific capacity (∼941 mA·h·g⁻¹ at 100 mA·g⁻¹) and high-rate capability (∼504 mA·h·g⁻¹ at 5 A·g⁻¹), as well as excellent cycling performance (∼285 mA·h·g⁻¹ in the 1,000^th cycle at 5 A·g⁻¹). These results demonstrate the promising application of vanadium oxides as anodes in LIBs. [Figure not available: see fulltext.].

源语言	英语
页（从-至）	4266-4273
页数	8
期刊	Nano Research
卷	10
期	12
DOI	https://doi.org/10.1007/s12274-017-1582-7
出版状态	已出版 - 1 12月 2017

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abstract = "Current research on vanadium oxides in lithium ion batteries (LIBs) considers them as cathode materials, whereas they are rarely studied for use as anodes in LIBs because of their low electrical conductivity and rapid capacity fading. In this work, hydrogenated vanadium oxide nanoneedles were prepared and incorporated into freeze-dried graphene foam. The hydrogenated vanadium oxides show greatly improved charge-transfer kinetics, which lead to excellent electrochemical properties. When tested as anode materials (0.005–3.0 V vs. Li/Li+) in LIBs, the sample activated at 600 °C exhibits high specific capacity (∼941 mA·h·g−1 at 100 mA·g−1) and high-rate capability (∼504 mA·h·g−1 at 5 A·g−1), as well as excellent cycling performance (∼285 mA·h·g−1 in the 1,000th cycle at 5 A·g−1). These results demonstrate the promising application of vanadium oxides as anodes in LIBs. [Figure not available: see fulltext.].",

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T1 - Hydrogenated vanadium oxides as an advanced anode material in lithium ion batteries

AU - Zhang, Yufei

AU - Wang, Huanwen

AU - Yang, Jun

AU - Fan, Haosen

AU - Zhang, Yu

AU - Dai, Zhengfei

AU - Zheng, Yun

AU - Huang, Wei

AU - Dong, Xiaochen

AU - Yan, Qingyu

PY - 2017/12/1

Y1 - 2017/12/1

N2 - Current research on vanadium oxides in lithium ion batteries (LIBs) considers them as cathode materials, whereas they are rarely studied for use as anodes in LIBs because of their low electrical conductivity and rapid capacity fading. In this work, hydrogenated vanadium oxide nanoneedles were prepared and incorporated into freeze-dried graphene foam. The hydrogenated vanadium oxides show greatly improved charge-transfer kinetics, which lead to excellent electrochemical properties. When tested as anode materials (0.005–3.0 V vs. Li/Li+) in LIBs, the sample activated at 600 °C exhibits high specific capacity (∼941 mA·h·g−1 at 100 mA·g−1) and high-rate capability (∼504 mA·h·g−1 at 5 A·g−1), as well as excellent cycling performance (∼285 mA·h·g−1 in the 1,000th cycle at 5 A·g−1). These results demonstrate the promising application of vanadium oxides as anodes in LIBs. [Figure not available: see fulltext.].

AB - Current research on vanadium oxides in lithium ion batteries (LIBs) considers them as cathode materials, whereas they are rarely studied for use as anodes in LIBs because of their low electrical conductivity and rapid capacity fading. In this work, hydrogenated vanadium oxide nanoneedles were prepared and incorporated into freeze-dried graphene foam. The hydrogenated vanadium oxides show greatly improved charge-transfer kinetics, which lead to excellent electrochemical properties. When tested as anode materials (0.005–3.0 V vs. Li/Li+) in LIBs, the sample activated at 600 °C exhibits high specific capacity (∼941 mA·h·g−1 at 100 mA·g−1) and high-rate capability (∼504 mA·h·g−1 at 5 A·g−1), as well as excellent cycling performance (∼285 mA·h·g−1 in the 1,000th cycle at 5 A·g−1). These results demonstrate the promising application of vanadium oxides as anodes in LIBs. [Figure not available: see fulltext.].

KW - 3D structure

KW - hydrogenation

KW - rechargeable lithium ion battery (LIB) anode

KW - vanadium oxides

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JO - Nano Research

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Hydrogenated vanadium oxides as an advanced anode material in lithium ion batteries

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